DE2046853B2 - DEVICE FOR CONTINUOUS REFORMING-REGENERATION - Google Patents

Description

the reforming reactor is characterized by

• That the catalyst in the reforming reactor in the

Form of a practically uninterrupted ^ of two cylindrical ones, moving from top to bottom

In the reforming of hydrocarbons 65 sieve-limited particle column with a ring-shaped to improve the cetane number one uses a cross-section is housed and radially of the Known catalysts through which, for example, a platinum reaction mixture flows and that the Kagruppenmetall contained on clay. Because the catalyzer in your regenerator in the form of a self

I /

_ the carbon burning zone, the halogenating • and the Trocfcenzosac is housed continuously downwards by the column. an expedient embodiment of the the reduction zone is provided in the upper part of the and contains the kataeiner wait moving step, om one Heat exchange with the hot reaction mixture introduced into the Refore In this way the catalysts are added to the reducing zone with hydrogen

Temperature reduced from 427 to 649 ° C and

Jangen then goes straight to the reforming zone. A further advantageous embodiment of the device according to the invention is that the JjjLefonnierreaktor of two separate, one above the other ^ Ordered reaction zones consists of both the catalyst in the form of an annular column included, the ring-shaped catalyst spaces of the two reaction zones by transfer line ao tun ° s are connected to each other and the reaction mixture outlet the upper zone is connected to the reaction mixture inlet of the lower zone via a reheater. Of course can also have more than two reaction zones connected to one another in this way in the reforming area ·; gate be provided. The catalysts of both reaction zones are expediently tight

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lays the ReaMonsgsmiscK there KoMeawasseistaff in «mem M 3. · I contains, but Leiteng4 in the

The reforming reactor consists of mustard crecfet superposed NNS and U, which are connected to each other via a ^ g. The reforming reactor consists of a diameter of 1.6 mm with about 0.37., Cent Hafin and 0.9 weight per cent Orior on clay. The ^^^ genes range from 454 to 510 ° C, the pressure is 14.6 atm.

The catalyst is in the form of a narrow partition, the three-dimensional sieves are formed, flows through this fatedysal layer ra ^ a outside inwards and then flows through the cylindrical interior 8 via line 9 to the intermediate heater 10. ■ · j

Because the reaction is endothermic. Wud the reaction zone 5 in the intermediate stirrer 16 _g again

heated and ^represents ^ _rt ^u ^ _d ^ 2 ^ ^e l tion zone introduced 11, in which the v-ieder radially from the outside inwards, shaped catalyst layer 13 durcb goes.] Then * reaction mixture downwardly through the Zy 14 and leaves the Reakt.onszone by_

Sr ₁ St it is advantageous to provide a return line for some of the exhaust gases that send the carbon burn-off zone back to this zone.

tr ^{RÜkfÜhlit i EVEN} high octane numbers, for example

with an octane rating of about 95 during one

high-carbon SA

dew

The device in accordance with the regulations works so γ-, Β continuously from the lower part of the reforming actuator spent catalyst withdrawn and added

₃₅

3 reaction zone 11 the ^ rführungsle, tungn and 17. These lines are aepuich narrow, so that practically the whole ^ too ⁿ s _g emis ^ h of ^ er Reak_

^ 3

; ieaktors is not a good catalyst for regeneration

S55Ä ^ s 7

The reforming process in the invention

S atm of a small fluid space velocity 55 line 26 via the speed * is increased from 0.2 to 10 and a molar ratio of

27 to external funnel catalytic converter

046 ^ 853

Passed through carbon burn zone 46 at an hourly gas flow rate of 31 for about 2 hours and then to chlorination zone 32. The chlorinated rate of about 4700 was passed. A recycle stream containing water vapor and chlorine, in excess and practically "carbon-free", is then passed through the drying zone 33 and therein is treated with a stream of hot dry air from the chlorination zone 32 through line 50, drawn in and out through fan 51 the excess vapor adsorbed gas components are circulated by the cata- chlorine stream for the chlorination zone,
to separate the analyzer. From the chlorination zone 32, the catalytic converters go into the carbon burn-off zone 31 to the drying zone 33, in which the vaporous catalyst particles are heated with an oxygen-containing gas, constituents from the catalyst by dry and hot circulating gases, the air flow through conduction be stripped. The air will be introduced 44 at a gas hourly space velocity through line 52 from an exterior of about 4700, not shown. The oxygenated source introduced into the system and the gas in the heater comes from the air introduced through line 35 into 53 prior to introduction into drying zone 33 through drying zone 33, which with steam, line 35 heats the air to 427-538 ° C Chlorine and HCl on their upward flow through the 15 drove a gas hourly space velocity of chloricrzone 32 has been mixed. The gas- about 150.

The mixture then continues upward through the carbon. The catalyst particles are removed from the regenerative combustion zone 31. The gases including the carbonate are removed from the line 54 by means of control valve 55, and hydrogen and sulfur oxides are collected in a funnel 56. Closing the carbon burning zone 31 as flue gases through ao, the catalyst is withdrawn through line 58, line 36. In some cases, the and control valve 64 are transferred to a vessel 57. Sent in the exhaust SO, scrubber 37, where they are From there, they are mixed through line 60 at about a Ätzalkalistrom, which increased from 93 m ^s-purity hydrogen from line 59, the Ätzalkaliabsetzgefäß 40 through cooler 65, and the hydrogen is then used line 38 comes as reducing gas. The mixture then returns to the caustic alkali settling vessel via as and as part of the hydrogen feed for the Re line 39. The forming reactor.

Exhaust gases that are practically free of halogen and sulfur are removed from the caustic alkali effluent in the reforming reactor at the top of the caustic alkali effluent in the reforming reactor and the catalyst is drawn off through line 41 and mixed with hydrogen in a dense phase of a blower 42 through heater 43 and line 4 30 in the reducing zone 61 to be sent to a carbon burning zone 31. They contain heat exchange with the approximately 0.7 percent by weight oxygen added to the reactor and cause hot reaction gases to be brought about. The ken a regulated combustion with a temperature catalyst residence time in the reduction zone 61 between 443 to 500 ° C. A blow-off line 45 carries about 2 hours at a temperature of 510 excess exhaust gas from the process. At 35-538 C. The reduced catalyst is then chlorination zone 32, the catalyst particles are brought into contact with the catalyst layer through lines 62 and a stream added through line 63 to replace catalyst entering from 46 and water vapor and chlorine in one of the system through lines IB and 19 to Re molar ratio of about 20: 1. Steam and generation was withdrawn.
Chlorine mix with the upward 40 The process of the invention particularly finds air from the drying zone 33. The catalyst use for low-thickness reforming. Although there is time in the chlorination zone 32, about low hydrogen partial pressures are the most important, the one hour. Through line 47, steam is drawn from octane enhancing reactions, e.g. B. Dehy temperature of about 232 ^C C with about 1.1 kg / h addition of paraffins and napithene favored. The steam is counteracted together with it, they also tend to favor the formation of concentrated steam and with the formation of carbon drawn from the line 48 due to the condensation of chlorine, which is passed through the line 50. The chlorination and polymerization reactions. The continuous wiM sows about 0.66 kg / h. The reforming-regeneration procedure after the Er-Dampf-ChlorgenHSch wild in the heater 49 on approximately equals this disadvantage, however, largely ^{heated to SOO 0} C rad of the CMorierzone 32 by Lei 50 axis.

1 sheet of drawings

Claims (6)

lysator during the ßefoanfeisas activity vedisrt, ßZ) t ^ t ^ ai «atetweideapaMist eHßioaZzB ^ p
it gbfich, des Ifcefojaiieseakfor make a certain . Disable device 23mrkontiao3fidicfaea Refonnie- tea time and after the catalyst regeneration χ- with a Vorerbiteer for zo s it regenerate or fresh catalytic converters ^ ans Reakiionsgennseh hydrogen nad TSek- tor zo replace. Sn such. The procedure is, however, with jrasserstoK, a catalyst-containing reformist.? H> dnldioiisverhisteB while the shut-off reactor with ice Zofahdetoflg sows veibundeiu A shortening of the depot, a discharge line for the second and thus a reduction in the production tover. ReaMons , systems erreiciit one catalyst consumed with so-called Schwingreaktorfür a re-, the loading of a plurality of reforming reactors ¹ Or a stand with sauerstoffbaltigem gas, of which alternately one part in Reforsn Kohlenstofiabbrennzone, a halo- mierberrieb is located, while in the other ane and a drying zone, pure above - the used catalyst is regenerated. Abgeinagsleitusg for used catalyst from 15 see that even with such a device refining reactor to the regenerator, a fully continuous reforming-regeneration process-regenerator is not possible, such Schwmgre- and a transfer line for regenerated actuator systems complicated valve and line systems. Catalyst from the reduction zone to the reformers. mierreaktor, characterized in, 20 from USA.-Patent 2965563 is still that the catalyst in the refining reactor in a device for refining - regeneration • the shape of a moving from top to bottom known to be the catalyst in the reforming reaction practically uninterrupted, containing two zy- tor in the form of a fluidized bed and the Lindric seven-delimited column of particles with several interconnected by conduit systems Cross-section is housed and has 25 dene regeneration zones, through which the reaction mixture flows in a material-containing manner with an acidic radial flow. Gas-fed carbon burners, and that the catalyst in the regeneration comprises a halogenation zone and a drying zone in the form of a look through the carbon sen. However, it is not the case with this device either burn-off zone «, the halogenation zone and the dry zone are possible without interrupting the reforming zone continuously downward moving column 30 bes catalyst from the refining reactor to the is housed. Subtract regeneration zones. Another disadvantage 2. Device according to claim 1, characterized in that this device is that for the Rck, that the refining reactor from two generation zones not only consumes catalyst, separate, stacked reactors but a mixture of fresh and used tion zones, both of which the catalyst enters 35 catalyst, so that the regeneration zones under Contain the form of an annular column, where necessary are heavily loaded. in the annular catalyst chambers of the two- The object on which the invention is based is In the reaction zones through transfer lines there is now a device for continuous flow are connected to each other and to obtain the reac- ching reforming - regeneration tion mixture outlet of the upper zone with the 4.0 of the for removal of the used catalyst Reaction mixture inlet of the lower zone above the reforming reactor does not interrupt its operation Interheater connected isi. Chen must be and thus in the refining reactor 3. Apparatus according to claim 2, characterized in that the reforming conditions can be continuously maintained and in which no fresh or unearthed reaction zones reach the regenerator through several narrow overused catalyst,
guide lines are interconnected. The device according to the invention for continuous 4. Apparatus according to claim 1 to 3. thereby lent reforming regeneration with a characterized in that a return line for we-VorerhiUer for the reaction mixture from water at least part of the carbon fuel and hydrocarbon, a catalyst holding zone leaving exhaust gases back to this zone 50 gene reforming reactor with a feed line for the is provided. Reaction mixture, a discharge line for the reforming 5. The device according to claim 4, characterized in that the reaction mixture and a discharge line are characterized in that an SO ₂ scrubber is connected to a carbon fed with oxygen-containing gas in the return line of the spent catalyst, a regenerator with a carbon burn-off zone. 55 fabric burning zone, a halogenation zone and a 6. Apparatus according to claim 1 to 5, characterized in the drying zone, a transfer line for vergekemizeichnet, that the reduction zone in the upper required catalyst from the reforming reactor to part of the reforming reactor is provided and regenerator, one downstream of the regenerator Catalyst m further downward moving Schient th reducing zones and a transfer line for contains. 60 regenerated catalyst from the reduction zone